JP4720044B2 - Data copy system and copy control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data copy system for copying information data and content information between electronic devices connected to an IEEE 1394 serial bus, and more specifically, information data and content information between electronic devices connected to an IEEE 1394 serial bus. Data copy system that adjusts the content information based on the copied information data when copying And copy control device About.
[0002]
[Prior art]
In recent years, the format of VCR (Video Cassette Recorder) has been digitized, and video data and / or audio data (hereinafter referred to as information data) can be stored in a system in which a plurality of digital VCRs are connected without losing image quality and sound quality. Data can be copied.
[0003]
As a method for copying information data in such a system, as described in Nikkan Kogyo Shimbun “Application to IEEE 1394 AV equipment” and Japanese Patent Laid-Open No. 9-162949, a plurality of methods are used by an IEEE 1394 serial bus (hereinafter referred to as a bus). There is a system for connecting electronic devices, transmitting / receiving information data between these electronic devices, and copying information data.
[0004]
For example, as shown in FIG. 11, the data copy system 3 includes a digital camera tape recorder (hereinafter referred to as CAM) 20, a digital VCR 21, and a personal computer (hereinafter referred to as PC) 22. . The CAM 20 and the PC 22 and the PC 22 and the digital VCR 21 are connected by a bus C.
[0005]
As shown in FIG. 12, transmission of signals in the system is performed, for example, by time division multiplexing every predetermined communication cycle. The transmission of this signal is started when an electronic device called a cycle master sends a cycle start packet (Cycle Start Packet) indicating that the communication cycle starts to the bus. Note that the cycle master is automatically determined by a procedure defined by IEEE 1394 when each electronic device is connected by a bus.
[0006]
There are two types of communication in one communication cycle: Iso communication that transmits information data isochronously and Async communication that transmits control signals such as connection control commands asynchronously. Then, the Iso packet is transmitted before the Async packet. By assigning channel numbers 1, 2, 3,... N to each Iso packet, a plurality of Iso data can be distinguished. After the transmission of the Iso packet is completed, a period until the next cycle start packet is used for transmission of the Async packet.
[0007]
The CAM 20 and the digital VCR 21 record the above information data on a digital tape. Further, the digital tape has a built-in cassette memory (Memory In Cassette: MIC) for storing contents information such as recording date, recording start / end time, recording position information and title name of the recorded information data. There is something. For example, by using this content information, the cueing of the tape is automatically performed and the information data is reproduced or the title of the title is displayed to recognize the contents of the information data without reproducing the information data. .
[0008]
[Problems to be solved by the invention]
However, in many cases, the content information is stored in the MIC based on the absolute track number of the digital tape on which the content information call signal for calling the content information included in the information data is recorded. For this reason, when the content information is copied along with the information data from the player-side VCR to the recorder-side VCR, the copied video data and / or audio data and the content information are correctly associated in the recorder-side VCR. Therefore, there is a problem that content information such as a search function does not operate correctly.
[0009]
In addition, there is a system for copying content information so as to relate to copied video data and / or audio data. In the above-described system, video data recorded on a VCR tape on the player side and / or Alternatively, since it is necessary to record on the VCR tape on the recorder side so as to be completely coincident with the track position of the audio data, the dubbing process by so-called cut editing cannot be performed, which is inconvenient for the user. Further, in the dubbing process in the above system, video data and / or audio data recorded on the VCR tape on the player side cannot be copied from any position to the VCR tape on the recorder side. There was a very inconvenient problem.
[0010]
Therefore, the present invention has been proposed in view of the above situation, and video data and / or audio data and an absolute track number are used between electronic devices connected by an IEEE 1394 serial bus. Data copy system that transmits and receives content information while maintaining consistency And copy control device The purpose is to provide.
[0011]
[Means for Solving the Problems]
In order to solve the above problems, a data copy system according to the present invention provides: Formed by video data and / or audio data Information data and , The above information data Included in Information content of information data and Content information call signal for calling content information of the information data A communication control bus capable of transmitting the above Information data And a content information call signal for calling the content information of the information data But Via the communication control bus Recorded Ru A first recording medium; Recorded on the first recording medium The track number where the content information call signal is recorded and ,the above Content information of information data recorded on the first recording medium; Is stored via the communication control bus A first storage element; Recorded on the first recording medium Information data And the above content information call signal The Via the communication control bus A second recording medium capable of recording; Read from the first recording medium and Recorded on the second recording medium The track number on which the content information call signal is recorded and the first recording medium are read and recorded on the second recording medium. Information content of information data Store via the communication control bus A second storage element capable of: Connected to the communication control bus, and First recording medium In the information data recorded in Read information data in any range from processing And reading the above information data processing In Therefore, from the first recording medium Read Is Information data The Recording to any location of the second recording medium via the communication control bus Make Record processing And the above record processing In Therefore When recording information data on the second recording medium, Read from the first recording medium and recorded on the second recording medium Monitoring to monitor the content information call signal included in the information data processing And the above monitoring processing When a content information call signal is discovered by ,Up Record Read from the first recording medium Content information call signal is recorded Of the second recording medium Track number The Detect Is continued until all the information data read from the first recording medium is recorded on the second recording medium. Track number detection processing When, the above Read content information to read track number and content information stored in first storage element processing And reading the above content information From the first storage element by processing Read Is Track number and content information The content information call signal recorded on the first recording medium, the track number on which the content information call signal is recorded, the content information of the information data, and the content recorded on the second recording medium The information call signal and the track number on which the content information call signal is recorded are stored correspondingly. Content information table generation to generate content information table processing When, Up Track number detection processing Detected by All done Track number In the above content information table Write Table data update processing to update the contents information table data When, The second recording medium to which the information data read from the first recording medium is written Track number and content information corresponding to the track number From the content information table that updated the above data reading, The track number of the read second recording medium and the content information corresponding to the track number are Stored in the second storage element via the communication control bus Control means for executing the content information writing process It is characterized by providing.
[0012]
In addition, the present invention Pertaining to In order to solve the above problems, the copy control device Copy source Recorded on the first recording medium It becomes the original formed by video data and / or audio data Information data A copy destination via a communication control bus capable of transmitting the information data, the content information included in the information data, and a content information call signal for calling the content information of the information data When copying to the second recording medium, Included in the information data read from the first recording medium and recorded on the second recording medium Monitoring means for monitoring the content information call signal; The track number in which the content information call signal recorded in the first recording medium is recorded and the content information of the information data recorded in the first recording medium are stored, via the communication control bus. From the first memory element Read Is Based on track number and content information Content information call signal recorded on the first recording medium, track number where the content information call signal is recorded, content information of information data, and content information recorded on the second recording medium The call signal and the track number on which the content information call signal is recorded are stored correspondingly. Content information table generation means for generating a content information table, and when a content information call signal is found by the monitoring means ,Up Record Read from the first recording medium Track number of the second recording medium on which the content information call signal is recorded The Detect Is continued until all the information data read from the first recording medium is recorded on the second recording medium. Track number detection means; Up Detected by track number detection means All done Track number In the above content information table Write Table data Writing means and above Table data From the content information table in which the track number is written by the writing means The second recording medium to which the information data read from the first recording medium is written Track number and content information corresponding to the track number All reading, The read track number of the second recording medium and the content information corresponding to the track number are recorded, the track number in which the content information call signal recorded on the second recording medium is recorded, and the second recording It is possible to store the content information of the information data recorded on the medium Second Via the communication control bus to the storage element And a reading means for outputting.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings.
[0014]
The present invention is applied to a data copy system 1 as shown in FIG.
[0015]
The data copy system 1 includes an electronic device 10, an electronic device 11, and a control unit 12. The electronic device 10, the control unit 12, and the electronic device 11 and the control unit 12 are communication control buses that are IEEE 1394 serial buses (hereinafter, referred to as a data control system). A video signal and / or audio data (hereinafter referred to as information data) is transmitted and received between the electronic device 10 and the electronic device 11 via the control unit 12. Yes.
[0016]
The electronic device 10 is a digital VCR (Video Cassette Recorder) capable of recording and reproducing information data recorded on a digital tape. The electronic device 11 is a digital VCR capable of recording and reproducing information data reproduced by the electronic device 10. The control unit 12 controls operations such as activation, reproduction, recording, and stop of the electronic device 10 and the electronic device 11 by a control signal. The control unit 12 is, for example, a personal computer (hereinafter referred to as a personal computer) that edits video, and includes a memory that stores various data and a display unit such as a CRT.
[0017]
The hub A transmits information data between the electronic device 10 and the electronic device 11 and a control signal supplied from the control unit 12. In IEEE 1394, a control device connected to the bus A issues a command to the controlled device connected to the bus A, and a series of commands attached to the command issued by the main device. It defines a mechanism for transferring information data and status. The bus A has nodes that can connect up to 63 devices.
[0018]
Here, specific configurations and operations of the electronic device 10 and the electronic device 11 will be described with reference to FIG.
[0019]
The electronic device 10 and the electronic device 11 include a digital tape 100 formed of a tape unit 100a for recording information data and a storage element unit (hereinafter referred to as MIC) 100b for storing content information of the information data. A content information read / write unit 101 that writes and reads content information to and from the MIC 100b, and a digital interface unit that performs application layer processing such as creation of various commands and responses (hereinafter referred to as a digital I / F unit). 102 and a communication interface unit (hereinafter referred to as a communication I / F unit) 103 that performs link layer and physical layer processing such as packet creation / detection and data encoding / decoding. Note that the content information includes the recording date, recording start / end time, recording position information, title name, and the like of the information data. The MIC 100b is a Memory In Cassette.
[0020]
A command transmitted from the electronic device is received via the bus A, subjected to processing of the physical layer and the link layer by the communication I / F unit 103, and transmitted to the digital I / F unit 102. The digital I / F unit 102 performs a predetermined process according to the content of the command and the current state regarding the management of writing and / or reading of the MIC 100b.
[0021]
Further, the digital I / F unit 102 has two states, an open state and a closed state, regarding management of writing and / or reading of content information stored in the MIC 100b. Hereinafter, basic features of the open state and the closed state will be described.
[0022]
In the closed state, the digital I / F unit 102 returns a rejection (rejection) response even if it receives a write and / or read command from the electronic device. When the digital I / F unit 102 receives an open command in the closed state, the digital I / F unit 102 enters the open state. On the other hand, when the digital I / F unit 102 receives a close command in the open state, the digital I / F unit 102 enters the closed state.
[0023]
The open state includes a read open state in which only reading is possible and a read / write open state in which reading and writing are possible. The read open state is a state in which the content information read from the MIC 100b can be transmitted via the content information read / write unit 101 when a read command is received from the electronic device. The read / write open state is a state in which write data received from the electronic device can be written to the MIC 100b via the content information read / write unit 101.
[0024]
Writing and / or reading of the content information stored in the MIC 100b as described above is performed using an Async packet. Hereinafter, the Async packet will be described.
[0025]
In Async communication, a control signal from a certain electronic device that requests something from another electronic device is called a command, and a side that sends this command in a packet is called a controller. A side that receives a command is called a target. The target returns a packet containing a control signal indicating the execution result of the command as necessary to the controller. The control signal at this time is called a response.
[0026]
The command and response are control signals communicated between one controller and one target. A series of exchanges that start with the transmission of a command and end with the return of a response is called a command transaction. The controller can request the target to perform a specific action through a command transaction, or query the current state of the target. Any electronic device in the system can start and end command transactions. That is, any electronic device can be a controller or a target.
[0027]
FIG. 3 shows the structure of an Async packet. The command and response have the same structure. In FIG. 3, packet data is transmitted in order from top to bottom and from left to right. The packet is expressed in units of 32 bits (= 1 quadlet). Further, it consists of a packet header and a data block. Then, the contents of the data block are written from the electronic device indicated by the source ID of the packet header to the address indicated by the destination offset of the electronic device indicated by the destination ID.
[0028]
destination_ID (destination identifier) indicates node_ID of the packet transmission destination, tl (transaction label) is a label for recognizing a match between a pair of transactions of the request packet and the response packet, and tl of the request packet is response Also used as a tl for packets.
[0029]
rt (retry code) is information about the retry method when busy Acknowledge is received, and tcode (transaction code) is the transaction packet type code, read / write / lock, quadlet / block or request / response Pri (priority) indicates that the fair arbitration is all zero except for the cycle start. source_ID (source identifier) indicates node_ID of the packet transmission source, and destination_offset indicates 48 bits of the target address on the register space of the packet transmission destination node. data_length indicates the length (bytes) of the data payload in the packet, and extended_tcode is meaningful only when the packet is a lock, and indicates the type of lock. header_CRC indicates the CRC for the header information. The above destination_ID to header_CRC indicate the structure of the 1394 packet header. Further, data indicates a data payload, and data_CRC indicates a CRC for the data payload. Data to data_CRC indicate the structure of the data block.
[0030]
In the data copy system 1, when the information data read from the digital tape 110 provided in the electronic device 10 is written to the digital tape 111 provided in the electronic device 11, the above-described Async packet is used to write the information data from the MIC of the digital tape 110. The content information is read and written to the MIC of the digital tape 111. Since the content information read from the MIC of the digital tape 110 uses an absolute track number, a predetermined process is performed so as to be consistent with the information data copied to the tape unit 100a of the digital tape 111. It is necessary to write to the MIC of the tape 111. Hereinafter, a procedure for reading the content information stored in the MIC of the digital tape by the control unit 12, performing a predetermined process on the read content information, and writing to the MIC of the digital tape will be described with reference to the flowchart shown in FIG. .
[0031]
For example, as shown in FIG. 5A, the electronic device 10 is a digital in which content information call signal A to content information call signal F for calling content information from the MIC are recorded on a track on which information data is recorded. The electronic device 11 has a tape 110, and the electronic device 11, for example, as shown in FIG. 5B, the content information call signal α to the content that calls the content information from the MIC on the track on which the information data is recorded. It is assumed that the digital tape 111 on which the information call signal δ is recorded is provided. Then, with the electronic device 10 as a player and the electronic device 11 as a recorder, as shown in FIG. 6 (a), information data between points X and Y on the track of the digital tape 110 is shown in FIG. 6 (b). As shown, an example of copying between points X ′ and Y ′ on the track of the digital tape 111 will be described below.
[0032]
In step ST <b> 1, the control unit 12 reads content information stored in the MIC of the digital tape 110. The control unit 12 reads the content information stored in the MIC and stores it in the memory. The control unit 12 uses an AV / C (Audio Video / Control) command when reading the content information from the MIC. The AV / C command is a command set for remotely controlling electronic devices connected via a network such as IEEE1394.
[0033]
In step ST2, the control unit 12 generates a track number change table based on the content information read in step ST1. For example, as shown in FIG. 7A, the track number change table 120 includes a content information call signal recorded on the digital tape 110 on the player side, a track number on which the signal is recorded, and information data It is composed of content information, a content information call signal recorded on the digital tape 111 on the recorder side, and a track number on which the signal is recorded. In this example, the content information call signal A is recorded at the position where the track number of the digital tape 110 is “9000”. The content information of “title 1” is executed there, and the track number is at the position “27000”. A content information call signal B is recorded, where the content information of “channel number 1” is executed, and the content information call signal C is recorded at a position where the track number is “45000”. The content information call signal D is recorded at the position where the track number is “63000”, where the content information of “title 3” is executed and the track number is at the position of “81000”. A content information call signal E is recorded, where the content information of “channel number 2” is executed, and the content information call is made at the position where the track number is “99000”. No. F has been recorded, where, has decided to execute the contents information of the "title 4".
[0034]
In step ST <b> 3, the control unit 12 starts copying information data between point X and point Y on the track of the digital tape 110 between point X ′ and point Y ′ on the track of the digital tape 111. The control unit 12 copies information data by isochronous transmission.
[0035]
In step ST4, the controller 12 monitors the content information call signal from the information data when copying the information data. If the content information call signal is found from the information data, the process proceeds to step ST5. If the content information call signal is not found from the information data, the process goes to step ST7. In step ST4, the content information call signal may be monitored using an AV / C command, or the content information call signal may be monitored from an isochronous stream.
[0036]
In step ST5, the control unit 12 detects the track number in which the content information call signal found in step ST4 is recorded from the digital tape 111.
[0037]
In step ST6, the control unit 12 records the track number detected in step ST5 in the track number change table 120 generated in step ST2. For example, the content information call signal B detected in step 4 is recorded at the position of the content information call signal B ′ on the digital tape 111, and the track number detected in step ST5 is “30000”. FIG. 7B shows an example in the case of “
[0038]
In step ST7, the control unit 12 confirms whether or not the copying of the information data from the digital tape 110 to the digital tape 111 has been completed. If the copying of the information data is completed, the process proceeds to step ST8. If the copying of the information data is not completed, the process returns to step ST4. Then, for example, step ST4 to step ST8 are repeated to obtain a track number change table 120 as shown in FIG.
[0039]
In step ST8, the control unit 12 confirms whether or not change data is recorded in the track number item of the digital tape 111 in the track number change table 120 generated in step ST2. If change data is recorded in the track number field of the digital tape 111, the process proceeds to step ST9.
[0040]
In step ST9, the control unit 12 records content information corresponding to the track number detected in step ST8 on the MIC of the digital tape 111. For example, as illustrated in FIG. 6B, the control unit 12 records the content information of the content information call signal B ′ to the content information call signal E ′ whose track number has been changed, on the MIC of the digital tape 111. Further, the control unit 12 uses an AV / C command when writing content information to the MIC.
[0041]
In this way, the information data in the arbitrary range recorded on the digital tape 110 on the player side and the content information of the information data are adapted to the information data and the information data at an arbitrary position on the digital tape 111 on the recorder side. Copy the content information that has been changed.
[0042]
The previous information data recorded at the points X ′ to Y ′ on the track of the digital tape 111 shown in FIG. 6B is overwritten by the copied information data, and the digital tape The content information of the content information call signal β and the content information call signal γ stored in the MIC 111 is automatically deleted when the content information of the content information call signal B ′ to the content information call signal E ′ is stored. It will be done.
[0043]
The erase operation may be performed as follows. In step ST1, the content information stored in the MIC of the digital tape 110 is read out, and the content information stored in the MIC of the digital tape 111 is also read out. In step ST2, the track number change table 1201 is generated based on the content information read from the MIC of the digital tape 110, and the track number change table 1202 is generated based on the content information read from the MIC of the digital tape 111. Note that when reading the content information from the MIC of the digital tape 111, AV / C commands are used. Then, the operation from step ST3 to step ST8 is performed, and a new track number is overwritten in the track number change table 1201. In step ST9, the portion overwritten in the track number change table 1201 is overwritten at the corresponding position in the track number change table 1202 and the content information is copied, and the track number change table 1202 is overwritten and recorded on the MIC of the digital tape 111. To do.
[0044]
As described above, when the data copy system 1 according to the first embodiment of the present invention copies information data in an arbitrary range from the electronic device 10 connected by the IEEE 1394 serial bus to the electronic device 11, the control unit 12, the content information of the information data using the absolute track number is read from the MIC built in the digital tape of the electronic device 10, and the content information included in the information data copied from the digital tape of the electronic device 11 The track number of the calling signal is detected, the track number of the read content information is changed based on the detected track number, and the changed content information is written to the MIC built in the digital tape of the electronic device 11. Therefore, information data in an arbitrary range recorded on the digital tape 110 included in the electronic device 10 is stored. Data and contents information of the information data at an arbitrary position of the digital tape 111 of the electronic device 11, it is possible to copy the changed content information to match the information data and the information data.
[0045]
In the first embodiment of the present invention, the electronic device 10 is a player and the electronic device 11 is a recorder. However, the electronic device 10 may be a recorder and the electronic device 11 may be a player. In this case, since the IEEE1394 serial bus is used as a connection line between devices, it is not necessary to change the connection.
[0046]
Next, a second embodiment of the present invention will be described with reference to the drawings.
[0047]
The present invention is applied to, for example, a data copy system 2 as shown in FIG.
[0048]
The data copy system 2 includes a plurality of electronic devices 13a1 to 13an and a control unit 14, and the electronic devices 13a1 to 13an and the control unit 14 are connected by an IEEE 1394 serial bus (hereinafter referred to as a bus) B. Information data is transmitted and received between the electronic devices 13a1 to 13an via the control unit 14.
[0049]
The electronic devices 13a1 to 13an are digital VCRs that can reproduce and record information data recorded on a digital tape, for example. The control unit 14 controls operations such as activation, reproduction, recording, and stop of the electronic devices 13a1 to 13an by a control signal. The control unit 14 is, for example, a personal computer (hereinafter referred to as a personal computer) that edits video and audio, and includes a memory that stores various data and a display unit such as a CRT.
[0050]
The hub B transmits information data between the electronic devices 13a1 to 13an and a control signal supplied from the control unit 14. Note that items specified in IEEE 1394 are the same as those in the data copy system 1 described above.
[0051]
Specific configurations and operations of the electronic devices 13a1 to 13an are the same as those of the data copy system 1 described above.
[0052]
In addition, the content information stored in the MIC of the digital tape provided in the electronic devices 13a1 to 13an is read and / or written by the Async packet described in the data copy system 1. The content information read from the MIC of the digital tape uses the absolute track number, so that it can be consistent with the information data copied to the copy destination digital tape before writing to the MIC of the copy destination digital tape. Thus, it is necessary to perform a predetermined process. Furthermore, since the data copy system 2 copies information data to a plurality of electronic devices at the same time, it is necessary to detect the track number in which the content information call signal is recorded for each electronic device. Since the track number that is read later in this electronic device becomes a value that has been advanced, it is necessary to correct the number of advanced tracks. In the following, in consideration of the detection work and correction described above, the control unit 14 reads out the content information stored in the MIC of the digital tape, performs a predetermined process on the read out content information, and applies it to a plurality of MICs of the digital tape. The writing procedure will be described with reference to the flowchart shown in FIG. In the recording of information data, it is defined that one frame of a display image is formed with a predetermined number of tracks. In the second embodiment of the present invention, the above-described correction of the number of tracks is performed using this rule. The electronic device 13a1 is a player, and the electronic devices 13a2 to 13an are recorders.
[0053]
In step ST20, the control part 14 reads the content information stored in MIC of the digital tape of the electronic device 13a1. The control unit 14 reads out the content information stored in the MIC and stores it in the memory. Note that the control unit 14 uses an AV / C command when reading content information from the MIC. The AV / C command is a command set for remotely controlling electronic devices connected via a network such as IEEE1394.
[0054]
In step ST21, the control unit 14 generates a track number change table based on the content information read in step ST20. For example, as shown in FIG. 10, the track number change table 130 includes a content information call signal recorded on a digital tape of the player-side electronic device 13a1, a track number in which the signal is recorded, and information data. Content information, a content information call signal recorded on the digital tape of each of the recorder-side electronic devices 13a2 to 13an, and a track number on which the signal is recorded.
[0055]
In step ST22, the control unit 14 reads information data in an arbitrary range from the digital tape on the player side, and starts copying the read information data to an arbitrary position on each digital tape on the recorder side. The control unit 14 copies information data by isochronous transmission.
[0056]
In step ST23, the control unit 14 monitors the content information call signal from the information data when copying the information data. If the content information call signal is found from the information data, the process proceeds to step ST24. If the content information call signal is not found from the information data, the process goes to step ST30. In step ST23, the content information call signal may be monitored using an AV / C command, or the content information call signal may be monitored from an isochronous stream.
[0057]
In step ST24, the control unit 14 records, for example, the content information call signal detected in step ST23 from the digital tape of the electronic device 13a2 as the first recorder that first detects the track number of the electronic device 13a2. Detect track number. The track number detected in step ST24 is set as Tr0, which is set as a reference track number.
[0058]
In step ST25, the control unit 14 records the track number detected in step ST24 in the track number change table 130 generated in step ST21.
[0059]
In step ST26, the control unit 14 uses any one of the electronic devices 13a3 to 13an as an n-th (second or later) recorder, and immediately before detecting the track number from the electronic device 13a3 to 13an, Read track number from digital tape. The track number detected in step ST26 is assumed to be Tr1.
[0060]
In step ST27, the control unit 14 uses any one of the electronic devices 13a3 to 13an as an n-th (second or later) recorder to detect a track number from the electronic devices 13a3 to 13an. The track number detected in step ST26 is assumed to be Tr2. The content information call signal Tr recorded on the digital tape of the nth electronic device is calculated by the following correction formula.
Tr = Tr2- (Tr1-Tr0)
Note that (Tr1-Tr0) represents the number of tracks that the first electronic device 13a2 has traveled before the track number is read from the nth electronic device and has advanced.
[0061]
In step ST28, the control unit 14 records the value calculated by the correction formula at a predetermined position in the track number change table 130 generated in step ST21.
[0062]
In step ST29, the control unit 14 confirms whether or not the detection of the track number from the electronic devices 13a2 to 13an has been completed. When the detection of the track number from the electronic devices 13a2 to 13an is not completed, the process returns to step ST26, and when the detection of the track number from the electronic devices 13a2 to 13an is completed, the process proceeds to step ST30.
[0063]
In step ST30, the control unit 14 confirms whether or not the copying of the information data from the electronic device 13a1 to the electronic devices 13a2 to 13an has been completed. If the copying of the information data is completed, the process proceeds to step ST31. If the copying of the information data is not completed, the process returns to step ST23.
[0064]
In step ST31, the control unit 14 checks whether or not change data is recorded in the track number item of each digital tape of the electronic devices 13a2 to 13an in the track number change table 130 generated in step ST21. When the change data is recorded in the track number item, the process proceeds to step ST32.
[0065]
In step ST32, the control unit 14 records the content information corresponding to the track number confirmed in step ST31 on the MIC of each digital tape of the electronic devices 13a2 to 13an. Further, the control unit 14 uses an AV / C command when writing content information to the MIC.
[0066]
As described above, the data copy system 2 according to the second exemplary embodiment of the present invention copies information data in an arbitrary range from the electronic device 13a1 connected by the IEEE1394 serial bus B to the plurality of electronic devices 13a2 to 13an. When performing, the control unit 14 reads the content information using the absolute track number from the MIC built in the digital tape of the electronic device 13a1, and is included in the information data copied from the digital tape of the electronic devices 13a2 to 13an. The track number of the content information calling signal is detected, the track number of the read content information is changed based on the detected track number, and the content information with the changed track number is sent to the digital tape of each of the electronic devices 13a2 to 13an. Is written in the MIC built in the electronic device 13a1. The information data of the arbitrary range recorded on the digital tape and the content information of the information data are adapted to the information data and the information data at arbitrary positions on the digital tape of the plurality of electronic devices 13a2 to 13an. The changed content information can be copied.
[0067]
In the second embodiment of the present invention, the electronic device 13a1 is a player and the electronic devices 13a2 to 13an are recorders. However, any electronic device among the electronic devices 13a2 to 13an is a recorder, and the other devices. The electronic device may be a player. In this case, since the IEEE1394 serial bus is used as a connection line between devices, it is not necessary to change the connection.
[0068]
【The invention's effect】
As explained in detail above, In the present invention, for example, Player-side electronic equipment and recorder-side electronic equipment are connected via an IEEE 1394 serial bus. In the data copy system, When the information data and content information are read from the digital tape included in the electronic device on the player side and recorded on the digital tape included in the electronic device on the recorder side, the content information call signal included in the information data is monitored, When the information call signal is found, the track number on which the content information call signal is recorded is detected from the digital tape on the recorder side, and a table is generated from the content information read from the digital tape on the player side. The detected track number is written, and the content information corresponding to the table in which the track number is written is stored in the memory built in the digital tape on the recorder side, so that the consistency between the information data and the above information data from the player side to the recorder side It is possible to copy the content information.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram showing an example of a configuration of a data copy system to which the present invention is applied.
FIG. 2 is a block diagram showing a main part of an electronic device in a data copy system to which the present invention is applied.
FIG. 3 is a diagram illustrating a structure of an Async packet.
FIG. 4 is a flowchart showing an example of a procedure for writing content information read from the MIC of the digital tape on the player side to the MIC of the digital tape on the recorder side by the data copy system to which the present invention is applied.
FIG. 5A is a diagram showing a recording state of information data recorded on the player-side digital tape and a content information call signal for calling the content information of the information data, and is recorded on the digital tape on the recorder side. It is a figure (b) which shows the recording state of the content information call signal for calling the information information which is information and the content information of the said information data.
FIG. 6 is a diagram showing a state in which an arbitrary range of information data recorded on a digital tape on the player side is a copy section, and the copy section is copied to an arbitrary position on the digital tape on the recorder side.
FIG. 7 is a schematic diagram of a track number change table generated by a control unit of a data copy system to which the present invention is applied.
FIG. 8 is a system configuration diagram showing an example of a configuration for copying information data between a plurality of devices by a data copy system to which the present invention is applied.
FIG. 9 is a flowchart showing an example of a procedure for writing the content information read from the MIC of the digital tape on the player side to the MIC of each digital tape on the recorder side by the data copy system to which the present invention is applied. .
FIG. 10 is a schematic diagram of a track number change table generated by a control unit of a data copy system to which the present invention is applied.
FIG. 11 is a system configuration diagram showing an example of the configuration of a conventional data copy system.
FIG. 12 is a data structure diagram showing an example of a data structure on a bus in a conventional data copy system.
[Explanation of symbols]
1, 2, data copy system, 10, 11, 13a1 to 13an electronic device, 12, 14 control unit, 100, 110, 111 digital tape, 101 content information read / write unit, 102 digital interface unit, 103 communication interface unit, 120 , 130 Track number change table

Claims (6)

And information data formed by the image data and / or voice data, a communication control bus which can transmit the content information of information data contained in the information data, the content information call signal for calling the content information of the information data When,
A first recording medium the content data call signal for calling the content information of the information data and the information data is Ru is recorded via the communication control bus,
The track number stored in the content information call signal recorded on the first recording medium, and content information of the information data recorded on said first recording medium is stored via the communication control bus first storage element that,
A second recording medium capable of recording the information data and the content information call signal recorded on the first recording medium via the communication control bus ;
Read out from the first recording medium, a track number is recorded on SL content information call signal recorded on the second recording medium, read from the first recording medium, the second A second storage element capable of storing content information of information data recorded on the recording medium via the communication control bus ;
Is connected to the communication control bus, and the information data read process for reading information data of an arbitrary range in the information data recorded in the first recording medium, the information data read process to thus first recording recording an outgoing information data read from the medium, the recording causes the recording process anywhere of the second recording medium through the communication control bus, the information data thus the second recording medium in the recording process to time, the read from the first recording medium, the second monitoring process of monitoring the content information call signals contained in the information data recorded on the recording medium, the contents information call signal by the monitoring process when but was discovered, the process you detect the track number of the second recording medium content information call signal read from top Symbol first recording medium is recorded, said first recording medium Track number detecting process to continue all the information data read et until recorded in the second recording medium, the content information reading process of reading the track number and content information stored in the first storage element When, the content by the information reading processing based on the read out track number and content information from said first memory element, said the first content information call signal recorded on a recording medium, the content information call signal Is recorded in correspondence with the track number in which the content information is recorded, the content information in the information data, the content information call signal recorded in the second recording medium, and the track number in which the content information call signal is recorded. that the contents and the content information table generating process for generating a information table, the upper Symbol track number detecting the content information table every track number detected by the processing Content corresponding to the track number and the track number of said contents information and the table data updating process for updating the data in the table, the first written information data read from the recording medium said second recording medium by writing the read all the information from the content information table updating the data, the read and the content information corresponding to the track number and the track number of the second recording medium, through the upper Symbol communication control bus said second storage Lud over data copy system and control means for performing a content information writing process of storing the device. The communication control bus, a data copying system Oh Ru請 Motomeko 1, wherein a serial bus capable of performing a time division transfer over the communication control bus. The content information includes the date of recording of the recorded information data, the recording start / end time, the recording position information, and the title name,
The first storage element is a semiconductor memory built in the first recording medium,
3. The data copy system according to claim 1, wherein the second storage element is a semiconductor memory built in the second recording medium . In the content information table generation process, based on the track number and content information read from the first storage element and the track number and content information read from the second storage element, the first information is generated. A first content information table including a content information call signal recorded in the recording medium, a track number in which the content information call signal is recorded, and content information of information data, and the second recording medium. A second content information table including a content information call signal recorded on the track, a track number in which the content information call signal is recorded, and content information of the information data,
In the table data writing process, all the tracks detected by the track number detecting means until the writing of all the information data read from the first recording medium to the second recording medium is completed. The first content information is written until the number is written in the first content information table and writing of all the information data read from the first recording medium to the second recording medium is completed. The data of all the track numbers written in the table and the content information call signal of the corresponding track number are overwritten and saved in the second content information table,
In the content information writing process, all information data read from the first recording medium is written to the first content information table until the writing to the second recording medium is completed. The data copy system according to any one of claims 1 to 3, wherein data of all track numbers and content information call signals of the corresponding track numbers are stored in the second storage element via the communication control bus. . The second recording medium comprises a plurality of recording media,
The second storage element comprises a plurality of recording elements,
In the recording process, the information data read from the first recording medium is recorded in an arbitrary place of each second recording medium via the communication control bus,
In the monitoring process, when information data is recorded on the second recording medium by the recording means, the information is read from the first recording medium and included in the information data recorded on the second recording medium. Monitoring the content information call signal for each second recording medium,
In the track number detection process, when the content information call signal is found by the monitoring means, the track of each second recording medium in which the content information call signal read from the first recording medium is recorded. The process of detecting the number is continued until all information data read from the first recording medium is recorded on all of the second recording medium,
In the content information table generation process, based on the track number and content information read from the first storage element, the content information call signal recorded on the first recording medium and the content information call signal Are recorded on the second recording medium. The track number in which the content information is recorded, the content information of the information data, the content information call signal recorded on the second recording medium, and the track number on which the content information call signal is recorded Generate a content information table that is stored for each medium,
In the table data update process, the data of all the track numbers detected by the track number detection means is corrected, and the data of the track information is updated by writing the corrected track number data in the content information table. ,
In the above content information writing process,
The corrected track number of each second recording medium in which the information data read from the first recording medium is written and the content information corresponding to the corrected track number are obtained from the content information table obtained by correcting the data. 2. The data copy system according to claim 1, wherein all the data is read out and the track number of the read second recording medium and the content information corresponding to the track number are stored in the second storage element via the communication control bus. . The original information data formed by the video data and / or audio data recorded on the first recording medium that is the copy source, the information data, the content information included in the information data, and the information data When copying to a second recording medium as a copy destination via a communication control bus capable of transmitting a content information call signal for calling content information, the second recording medium is read from the first recording medium, Monitoring means for monitoring a content information call signal included in the information data recorded on the recording medium ;
The track number in which the content information call signal recorded in the first recording medium is recorded and the content information of the information data recorded in the first recording medium are stored, via the communication control bus. based on the first track number and contents information read out from the storage elements Te, the content information call signal recorded in the first recording medium, and a track number to which the content information call signal is recorded , the contents of generating the content information of the information data, and content information call signals recorded on said second recording medium, the contents information table and the track number to which the content information call signal is recorded is stored in correspondence An information table generating means;
When content information call signal has been discovered by the monitoring means, the processing you detect the track number of the second recording medium content information call signal read from top Symbol first recording medium is recorded Track number detecting means that continues until all the information data read from the first recording medium is recorded on the second recording medium ;
A table data writing means for writing all the track numbers detected by the above SL track number detecting means to the content information table,
All the track number of the second recording medium to which the information data read from the first recording medium and the content information corresponding to the track number are read from the content information table in which the track number is written by the table data writing means. , The track number of the read second recording medium and the content information corresponding to the track number, the track number where the content information call signal recorded on the second recording medium is recorded, and the second A copy control apparatus comprising: a reading unit that outputs to a second storage element capable of storing content information of information data recorded on a recording medium via the communication control bus .

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